Abstract
Increase in vascular permeability is a conclusive response in the progress of inflammation. Under controlled conditions, leukocytes are known to migrate across the vascular barriers to the sites of inflammation without severe vascular rupture. However, when inflammatory state becomes excessive, the leakage of blood components may occur and can be lethal. Basically, vascular permeability can be analyzed based on the intensity of blood outflow. To evaluate the amount and rate of leakage in live mice, we performed cremaster muscle exteriorization to visualize blood flow and neutrophil migration. Using two-photon intravital microscopy of the exteriorized cremaster muscle venules, we found that vascular barrier function is transiently and locally disrupted in the early stage of inflammatory condition induced by N-formylmethionyl-leucyl-phenylalanine (fMLP). Measurement of the concentration of intravenously (i.v.) injected Texas Red dextran inside and outside the vessels resulted in clear visualization of real-time increases in transient and local vascular permeability increase in real-time manner. We successfully demonstrated repeated leakage from a target site on a blood vessel in association with increasing severity of inflammation. Therefore, compared to other methods, two-photon intravital microscopy more accurately visualizes and quantifies vascular permeability even in a small part of blood vessels in live animals in real time.
Highlights
Control of vascular permeability allows leukocyte migration, provides nutrition, and maintains homeostasis of the body [1]
Erefore, we prepared cremaster muscle of mice in order to observe the changes in vascular integrity in acute inflammatory conditions. e cremaster muscle was treated with bacterial chemoattractant, fMLP, and two-photon intravital imaging of cremaster muscle venules was conducted for more than 3 hours. fMLP was used to recruit neutrophils along the cremaster vessels [10, 11]. e major premise of this study was that neutrophils activated by fMLP would increase the secretion of vascular endothelial growth factor A (VEGF-A); vascular integrity would be decreased by cytoskeletal contraction [2, 12]
Angiorrhexis Is a Local and Transient Event throughout a Blood Vessel during In ammation. fMLP is a bacterial chemoattractant used to induce an in ammatory state, in which neutrophils in ltrate across blood vessels in damaged or infected interstitium; this may induce vascular disruption
Summary
Control of vascular permeability allows leukocyte migration, provides nutrition, and maintains homeostasis of the body [1]. Various stimuli act on endothelial cells and adjust the tightness of the vascular barrier by remodeling actins [3]. Metastasis of cancer cells is strongly associated with vascular integrity since a highly permeable endothelial barrier induces angiogenesis, which eventually supports the dissemination of tumor cells [7,8,9]. Erefore, we prepared cremaster muscle of mice in order to observe the changes in vascular integrity in acute inflammatory conditions. E major premise of this study was that neutrophils activated by fMLP would increase the secretion of vascular endothelial growth factor A (VEGF-A); vascular integrity would be decreased by cytoskeletal contraction [2, 12]. Morphological changes in leukocytes and the intensity of blood flow were evaluated
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